Files
wz-phone/crates/wzp-client/tests/handshake_integration.rs
Siavash Sameni 06253fdeeb feat(video+desktop): camera capture, video UI, E2E AEAD wiring, test fixes
Blockers 4 & 5: browser getUserMedia → JPEG IPC → Rust I420 pipeline;
remote video strip renders decoded frames via canvas; EncryptingTransport
wraps QuinnTransport so WZP AEAD is applied to all media (C2 fix).

Test fixes: HandshakeResult.session destructuring across relay/client/crypto
integration tests; video_codecs field added to all CallOffer/CallAnswer
structs; wzp-video pipeline_roundtrip integration tests added.

PRD docs: five Kimi-ready specs for E2E encryption, Android NDK 0.9 migration,
quality upgrade flow, wire-format hardening, and clippy debt.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-25 15:30:26 +04:00

247 lines
7.8 KiB
Rust

//! Integration test: full client-relay handshake with mock transport.
//!
//! Verifies that both sides derive the same session key by encrypting
//! a message on one side and decrypting it on the other.
use std::sync::Arc;
use async_trait::async_trait;
use tokio::sync::Mutex;
use tokio::sync::mpsc;
use wzp_proto::packet::MediaPacket;
use wzp_proto::traits::{MediaTransport, PathQuality};
use wzp_proto::{SignalMessage, TransportError, default_signal_version};
/// A mock transport backed by two mpsc channels (one per direction).
///
/// `signal_tx` sends signals *to* the peer.
/// `signal_rx` receives signals *from* the peer.
struct MockTransport {
signal_tx: mpsc::Sender<SignalMessage>,
signal_rx: Mutex<mpsc::Receiver<SignalMessage>>,
}
impl MockTransport {
fn pair() -> (Arc<Self>, Arc<Self>) {
let (tx_a, rx_a) = mpsc::channel(16);
let (tx_b, rx_b) = mpsc::channel(16);
let a = Arc::new(Self {
signal_tx: tx_b, // A sends to B's rx
signal_rx: Mutex::new(rx_a),
});
let b = Arc::new(Self {
signal_tx: tx_a, // B sends to A's rx
signal_rx: Mutex::new(rx_b),
});
(a, b)
}
}
#[async_trait]
impl MediaTransport for MockTransport {
async fn send_media(&self, _packet: &MediaPacket) -> Result<(), TransportError> {
Ok(())
}
async fn recv_media(&self) -> Result<Option<MediaPacket>, TransportError> {
Ok(None)
}
async fn send_signal(&self, msg: &SignalMessage) -> Result<(), TransportError> {
self.signal_tx
.send(msg.clone())
.await
.map_err(|e| TransportError::Internal(format!("send failed: {e}")))?;
Ok(())
}
async fn recv_signal(&self) -> Result<Option<SignalMessage>, TransportError> {
let mut rx = self.signal_rx.lock().await;
Ok(rx.recv().await)
}
fn path_quality(&self) -> PathQuality {
PathQuality::default()
}
async fn close(&self) -> Result<(), TransportError> {
Ok(())
}
}
#[tokio::test]
async fn full_handshake_both_sides_derive_same_session() {
let (client_transport, relay_transport) = MockTransport::pair();
let client_seed = [0xAA_u8; 32];
let relay_seed = [0xBB_u8; 32];
let client_transport_clone = Arc::clone(&client_transport);
let relay_transport_clone = Arc::clone(&relay_transport);
// Run client and relay handshakes concurrently.
let (client_result, relay_result) = tokio::join!(
wzp_client::handshake::perform_handshake(
client_transport_clone.as_ref(),
&client_seed,
None
),
wzp_relay::handshake::accept_handshake(relay_transport_clone.as_ref(), &relay_seed),
);
let client_hs = client_result.expect("client handshake should succeed");
let (mut relay_session, chosen_profile, _caller_fp, _caller_alias) =
relay_result.expect("relay handshake should succeed");
// Verify a profile was chosen.
assert_eq!(chosen_profile, wzp_proto::QualityProfile::GOOD);
// Verify both sides can communicate: client encrypts, relay decrypts.
// encrypt/decrypt derive nonces from MediaHeader.seq, so we need valid headers.
use wzp_proto::packet::MediaHeader;
use wzp_proto::{CodecId, MediaType};
let make_hdr = |seq: u32| {
let h = MediaHeader {
version: 2,
flags: 0,
media_type: MediaType::Audio,
codec_id: CodecId::Opus24k,
stream_id: 0,
fec_ratio: 0,
seq,
timestamp: seq.wrapping_mul(20),
fec_block: 0,
};
let mut b = Vec::new();
h.write_to(&mut b);
b
};
let header = make_hdr(0);
let plaintext = b"hello from client to relay";
let mut client_session = client_hs.session;
let mut ciphertext = Vec::new();
client_session
.encrypt(&header, plaintext, &mut ciphertext)
.expect("client encrypt should succeed");
let mut decrypted = Vec::new();
relay_session
.decrypt(&header, &ciphertext, &mut decrypted)
.expect("relay decrypt should succeed");
assert_eq!(&decrypted[..], plaintext);
// Verify reverse direction: relay encrypts, client decrypts.
let header2 = make_hdr(0); // relay's send_seq starts at 0
let plaintext2 = b"hello from relay to client";
let mut ciphertext2 = Vec::new();
relay_session
.encrypt(&header2, plaintext2, &mut ciphertext2)
.expect("relay encrypt should succeed");
let mut decrypted2 = Vec::new();
client_session
.decrypt(&header2, &ciphertext2, &mut decrypted2)
.expect("client decrypt should succeed");
assert_eq!(&decrypted2[..], plaintext2);
}
#[tokio::test]
async fn handshake_rejects_tampered_signature() {
let (client_transport, relay_transport) = MockTransport::pair();
let _client_seed = [0xCC_u8; 32];
let relay_seed = [0xDD_u8; 32];
// We'll manually tamper: run the relay side with a modified caller signature.
// Create a custom client that sends a bad signature.
let client_transport_clone = Arc::clone(&client_transport);
let bad_client = tokio::spawn(async move {
use wzp_crypto::{KeyExchange, WarzoneKeyExchange};
let mut kx = WarzoneKeyExchange::from_identity_seed(&[0xCC_u8; 32]);
let identity_pub = kx.identity_public_key();
let ephemeral_pub = kx.generate_ephemeral();
// Create a BAD signature (sign wrong data)
let bad_signature = kx.sign(b"wrong-data-intentionally");
let offer = SignalMessage::CallOffer {
version: default_signal_version(),
identity_pub,
ephemeral_pub,
signature: bad_signature,
supported_profiles: vec![wzp_proto::QualityProfile::GOOD],
alias: None,
protocol_version: 2,
supported_versions: vec![2],
video_codecs: vec![],
};
client_transport_clone
.send_signal(&offer)
.await
.expect("send should work");
});
let relay_result =
wzp_relay::handshake::accept_handshake(relay_transport.as_ref(), &relay_seed).await;
bad_client.await.unwrap();
match relay_result {
Err(e) => {
let err_msg = e.to_string();
assert!(
err_msg.contains("signature verification failed"),
"error should mention signature: {err_msg}"
);
}
Ok(_) => panic!("relay should reject tampered signature"),
}
}
#[tokio::test]
async fn client_receives_protocol_version_mismatch() {
let (client_transport, relay_transport) = MockTransport::pair();
let client_seed = [0xAA_u8; 32];
// Spawn a fake relay that sends ProtocolVersionMismatch.
let relay_clone = Arc::clone(&relay_transport);
tokio::spawn(async move {
// Wait for the client's CallOffer.
let offer = relay_clone.recv_signal().await.unwrap().unwrap();
assert!(matches!(offer, SignalMessage::CallOffer { .. }));
// Respond with ProtocolVersionMismatch.
let mismatch = SignalMessage::Hangup {
version: default_signal_version(),
reason: wzp_proto::HangupReason::ProtocolVersionMismatch {
server_supported: vec![3],
},
call_id: None,
};
relay_clone.send_signal(&mismatch).await.unwrap();
});
let result =
wzp_client::handshake::perform_handshake(client_transport.as_ref(), &client_seed, None)
.await;
match result {
Err(wzp_client::handshake::HandshakeError::ProtocolVersionMismatch {
server_supported,
}) => {
assert_eq!(server_supported, vec![3]);
}
Err(other) => panic!("expected ProtocolVersionMismatch, got: {other:?}"),
Ok(_) => panic!("expected handshake to fail with ProtocolVersionMismatch"),
}
}